Classes

In this intensive graduate course, students develop 3D design and fabrication skills and constructed fluidic "artificial guts." Students utilize these structures to culture a variety of gut-based micro-organisms, both in mono- and co-cultures, to prototype and construct from scratch their own microbial communities.

A capstone course where students design, prototype, test, and operate a complex atmospheric flight vehicle in a large team environment. The course provides a full lifecycle experience from conceptual design through to a physical hardware system, emphasizing teamwork, communication, and individual responsibility. Students work on real-world projects, often for external contractors, to develop innovative aerospace systems.

Students assemble their own autonomous underwater vehicle using a kit of parts, beginning with core electronics and building out a full vehicle for deployment followed by waterproofing vacuum tests, pre-launch sub-system tests, and dockside ballasting, followed by in-water low-level control tuning runs.

This course explores holography and its utility across physics domains. This course consists of fundamental theory coupled with hands-on laboratory sessions. Students create their own computer-generated holograms and a traditional optical hologram to take home.

Emphasizes system integration and performance verification. Includes experimental analysis of subsystem performance and comparison with physical models of performance and with design goals.

Students develop proficiency in 3D design and fabrication technologies by constructing fluidic devices for assembling synthetic DNA. Students fabricate multi-input 3D fluidics for mixing DNA and enzyme solutions on-chip, culminating in the assembly of genetic circuits, which are booted up in bacteria and assayed for function.

Teams apply principles of lasers and optical components, communication link design, and analog and digital modulation to build their own free-space laser communication system.

Focuses on the design of engineering systems to satisfy stated performance, stability, and/or control requirements. Culminates in the design of an engineering system, typically a vehicle or other complex system.